#include #include #include #include #include #include #include "perfdata.h" const LPWSTR NamesKey = (const LPWSTR)L"SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Perflib"; const LPWSTR DefaultLangId = (const LPWSTR)L"009"; const LPWSTR Counters = (const LPWSTR)L"Counters"; const LPWSTR Help = (const LPWSTR)L"Help"; const LPWSTR LastHelp = (const LPWSTR)L"Last Help"; const LPWSTR LastCounter = (const LPWSTR)L"Last Counter"; const LPWSTR Slash = (const LPWSTR)L"\\"; // the following strings are for getting texts from perflib #define OLD_VERSION 0x010000 const LPWSTR VersionName = (const LPWSTR)L"Version"; const LPWSTR CounterName = (const LPWSTR)L"Counter "; const LPWSTR HelpName = (const LPWSTR)L"Explain "; LPMEMORY MemoryAllocate ( DWORD dwSize ) { // MemoryAllocate HMEMORY hMemory ; LPMEMORY lpMemory ; hMemory = GlobalAlloc (GHND, dwSize); if (!hMemory) return (NULL); lpMemory = GlobalLock (hMemory); if (!lpMemory) GlobalFree (hMemory); return (lpMemory); } // MemoryAllocate VOID MemoryFree ( LPMEMORY lpMemory ) { // MemoryFree HMEMORY hMemory ; if (!lpMemory) return ; hMemory = GlobalHandle (lpMemory); if (hMemory) { // if GlobalUnlock (hMemory); GlobalFree (hMemory); } // if } // MemoryFree DWORD MemorySize ( LPMEMORY lpMemory ) { HMEMORY hMemory ; hMemory = GlobalHandle (lpMemory); if (!hMemory) return (0L); return (DWORD)(GlobalSize (hMemory)); } LPMEMORY MemoryResize ( LPMEMORY lpMemory, DWORD dwNewSize ) { HMEMORY hMemory ; LPMEMORY lpNewMemory ; hMemory = GlobalHandle (lpMemory); if (!hMemory) return (NULL); GlobalUnlock (hMemory); hMemory = GlobalReAlloc (hMemory, dwNewSize, GHND); if (!hMemory) return (NULL); lpNewMemory = GlobalLock (hMemory); return (lpNewMemory); } // MemoryResize LPWSTR *BuildNameTable( LPWSTR szComputerName, // computer to query names from LPWSTR lpszLangId, // unicode value of Language subkey PDWORD pdwLastItem // size of array in elements ) /*++ BuildNameTable Arguments: hKeyRegistry Handle to an open registry (this can be local or remote.) and is the value returned by RegConnectRegistry or a default key. lpszLangId The unicode id of the language to look up. (default is 409) Return Value: pointer to an allocated table. (the caller must free it when finished!) the table is an array of pointers to zero terminated strings. NULL is returned if an error occured. --*/ { LPWSTR *lpReturnValue; LPWSTR *lpCounterId; LPWSTR lpCounterNames; LPWSTR lpHelpText; LPWSTR lpThisName; LONG lWin32Status; DWORD dwLastError; DWORD dwValueType; DWORD dwArraySize; DWORD dwBufferSize; DWORD dwCounterSize; DWORD dwHelpSize; DWORD dwThisCounter; DWORD dwSystemVersion; DWORD dwLastId; DWORD dwLastHelpId; HKEY hKeyRegistry = NULL; HKEY hKeyValue = NULL; HKEY hKeyNames = NULL; LPWSTR lpValueNameString; WCHAR CounterNameBuffer [50]; WCHAR HelpNameBuffer [50]; lpValueNameString = NULL; //initialize to NULL lpReturnValue = NULL; if (szComputerName == NULL) { // use local machine hKeyRegistry = HKEY_LOCAL_MACHINE; } else { if (RegConnectRegistry (szComputerName, HKEY_LOCAL_MACHINE, &hKeyRegistry) != ERROR_SUCCESS) { // unable to connect to registry return NULL; } } // check for null arguments and insert defaults if necessary if (!lpszLangId) { lpszLangId = DefaultLangId; } // open registry to get number of items for computing array size lWin32Status = RegOpenKeyEx ( hKeyRegistry, NamesKey, RESERVED, KEY_READ, &hKeyValue); if (lWin32Status != ERROR_SUCCESS) { goto BNT_BAILOUT; } // get number of items dwBufferSize = sizeof (dwLastHelpId); lWin32Status = RegQueryValueEx ( hKeyValue, LastHelp, RESERVED, &dwValueType, (LPBYTE)&dwLastHelpId, &dwBufferSize); if ((lWin32Status != ERROR_SUCCESS) || (dwValueType != REG_DWORD)) { goto BNT_BAILOUT; } // get number of items dwBufferSize = sizeof (dwLastId); lWin32Status = RegQueryValueEx ( hKeyValue, LastCounter, RESERVED, &dwValueType, (LPBYTE)&dwLastId, &dwBufferSize); if ((lWin32Status != ERROR_SUCCESS) || (dwValueType != REG_DWORD)) { goto BNT_BAILOUT; } if (dwLastId < dwLastHelpId) dwLastId = dwLastHelpId; dwArraySize = dwLastId * sizeof(LPWSTR); // get Perflib system version dwBufferSize = sizeof (dwSystemVersion); lWin32Status = RegQueryValueEx ( hKeyValue, VersionName, RESERVED, &dwValueType, (LPBYTE)&dwSystemVersion, &dwBufferSize); if ((lWin32Status != ERROR_SUCCESS) || (dwValueType != REG_DWORD)) { dwSystemVersion = OLD_VERSION; } if (dwSystemVersion == OLD_VERSION) { // get names from registry lpValueNameString = MemoryAllocate ( lstrlen(NamesKey) * sizeof (WCHAR) + lstrlen(Slash) * sizeof (WCHAR) + lstrlen(lpszLangId) * sizeof (WCHAR) + sizeof (UNICODE_NULL)); if (!lpValueNameString) goto BNT_BAILOUT; lstrcpy (lpValueNameString, NamesKey); lstrcat (lpValueNameString, Slash); lstrcat (lpValueNameString, lpszLangId); lWin32Status = RegOpenKeyEx ( hKeyRegistry, lpValueNameString, RESERVED, KEY_READ, &hKeyNames); } else { if (szComputerName == NULL) { hKeyNames = HKEY_PERFORMANCE_DATA; } else { if (RegConnectRegistry (szComputerName, HKEY_PERFORMANCE_DATA, &hKeyNames) != ERROR_SUCCESS) { goto BNT_BAILOUT; } } lstrcpy (CounterNameBuffer, CounterName); lstrcat (CounterNameBuffer, lpszLangId); lstrcpy (HelpNameBuffer, HelpName); lstrcat (HelpNameBuffer, lpszLangId); } // get size of counter names and add that to the arrays if (lWin32Status != ERROR_SUCCESS) goto BNT_BAILOUT; dwBufferSize = 0; lWin32Status = RegQueryValueEx ( hKeyNames, dwSystemVersion == OLD_VERSION ? Counters : CounterNameBuffer, RESERVED, &dwValueType, NULL, &dwBufferSize); if (lWin32Status != ERROR_SUCCESS) goto BNT_BAILOUT; dwCounterSize = dwBufferSize; // get size of counter names and add that to the arrays if (lWin32Status != ERROR_SUCCESS) goto BNT_BAILOUT; dwBufferSize = 0; lWin32Status = RegQueryValueEx ( hKeyNames, dwSystemVersion == OLD_VERSION ? Help : HelpNameBuffer, RESERVED, &dwValueType, NULL, &dwBufferSize); if (lWin32Status != ERROR_SUCCESS) goto BNT_BAILOUT; dwHelpSize = dwBufferSize; lpReturnValue = MemoryAllocate (dwArraySize + dwCounterSize + dwHelpSize); if (!lpReturnValue) goto BNT_BAILOUT; // initialize pointers into buffer lpCounterId = lpReturnValue; lpCounterNames = (LPWSTR)((LPBYTE)lpCounterId + dwArraySize); lpHelpText = (LPWSTR)((LPBYTE)lpCounterNames + dwCounterSize); // read counters into memory dwBufferSize = dwCounterSize; lWin32Status = RegQueryValueEx ( hKeyNames, dwSystemVersion == OLD_VERSION ? Counters : CounterNameBuffer, RESERVED, &dwValueType, (LPVOID)lpCounterNames, &dwBufferSize); if (!lpReturnValue) goto BNT_BAILOUT; dwBufferSize = dwHelpSize; lWin32Status = RegQueryValueEx ( hKeyNames, dwSystemVersion == OLD_VERSION ? Help : HelpNameBuffer, RESERVED, &dwValueType, (LPVOID)lpHelpText, &dwBufferSize); if (!lpReturnValue) goto BNT_BAILOUT; // load counter array items for (lpThisName = lpCounterNames; *lpThisName; lpThisName += (lstrlen(lpThisName)+1) ) { // first string should be an integer (in decimal unicode digits) dwThisCounter = wcstoul (lpThisName, NULL, 10); // point to corresponding counter name lpThisName += (lstrlen(lpThisName)+1); // and load array element; lpCounterId[dwThisCounter] = lpThisName; } for (lpThisName = lpHelpText; *lpThisName; lpThisName += (lstrlen(lpThisName)+1) ) { // first string should be an integer (in decimal unicode digits) dwThisCounter = wcstoul (lpThisName, NULL, 10); // point to corresponding counter name lpThisName += (lstrlen(lpThisName)+1); // and load array element; lpCounterId[dwThisCounter] = lpThisName; } if (pdwLastItem) *pdwLastItem = dwLastId; MemoryFree ((LPVOID)lpValueNameString); RegCloseKey (hKeyValue); if (dwSystemVersion == OLD_VERSION) RegCloseKey (hKeyNames); return lpReturnValue; BNT_BAILOUT: if (lWin32Status != ERROR_SUCCESS) { dwLastError = GetLastError(); } if (lpValueNameString) { MemoryFree ((LPVOID)lpValueNameString); } if (lpReturnValue) { MemoryFree ((LPVOID)lpReturnValue); } if (hKeyValue) RegCloseKey (hKeyValue); if (hKeyNames) RegCloseKey (hKeyNames); if (hKeyRegistry) RegCloseKey (hKeyNames); return NULL; } PPERF_OBJECT_TYPE FirstObject ( IN PPERF_DATA_BLOCK pPerfData ) { return ((PPERF_OBJECT_TYPE) ((PBYTE) pPerfData + pPerfData->HeaderLength)); } PPERF_OBJECT_TYPE NextObject ( IN PPERF_OBJECT_TYPE pObject ) { // NextObject DWORD dwOffset; dwOffset = pObject->TotalByteLength; if (dwOffset != 0) { return ((PPERF_OBJECT_TYPE) ((PBYTE) pObject + dwOffset)); } else { return NULL; } } // NextObject PERF_OBJECT_TYPE * GetObjectDefByTitleIndex( IN PERF_DATA_BLOCK *pDataBlock, IN DWORD ObjectTypeTitleIndex ) { DWORD NumTypeDef; PERF_OBJECT_TYPE *pObjectDef; pObjectDef = FirstObject(pDataBlock); for ( NumTypeDef = 0; NumTypeDef < pDataBlock->NumObjectTypes; NumTypeDef++ ) { if ( pObjectDef->ObjectNameTitleIndex == ObjectTypeTitleIndex ) { return pObjectDef; } pObjectDef = NextObject(pObjectDef); } return 0; } PERF_INSTANCE_DEFINITION * FirstInstance( IN PERF_OBJECT_TYPE *pObjectDef ) { return (PERF_INSTANCE_DEFINITION *) ((PCHAR) pObjectDef + pObjectDef->DefinitionLength); } PERF_INSTANCE_DEFINITION * NextInstance( IN PERF_INSTANCE_DEFINITION *pInstDef ) { PERF_COUNTER_BLOCK *pCounterBlock; pCounterBlock = (PERF_COUNTER_BLOCK *) ((PCHAR) pInstDef + pInstDef->ByteLength); return (PERF_INSTANCE_DEFINITION *) ((PCHAR) pCounterBlock + pCounterBlock->ByteLength); } PERF_INSTANCE_DEFINITION * GetInstance( IN PERF_OBJECT_TYPE *pObjectDef, IN LONG InstanceNumber ) { PERF_INSTANCE_DEFINITION *pInstanceDef; LONG NumInstance; if (!pObjectDef) { return 0; } pInstanceDef = FirstInstance(pObjectDef); for ( NumInstance = 0; NumInstance < pObjectDef->NumInstances; NumInstance++ ) { if ( InstanceNumber == NumInstance ) { return pInstanceDef; } pInstanceDef = NextInstance(pInstanceDef); } return 0; } PERF_COUNTER_DEFINITION * FirstCounter( PERF_OBJECT_TYPE *pObjectDef ) { return (PERF_COUNTER_DEFINITION *) ((PCHAR) pObjectDef + pObjectDef->HeaderLength); } PERF_COUNTER_DEFINITION * NextCounter( PERF_COUNTER_DEFINITION *pCounterDef ) { DWORD dwOffset; dwOffset = pCounterDef->ByteLength; if (dwOffset != 0) { return (PERF_COUNTER_DEFINITION *) ((PCHAR) pCounterDef + dwOffset); } else { return NULL; } } #pragma warning ( disable : 4127 ) LONG GetSystemPerfData ( IN HKEY hKeySystem, IN PPERF_DATA_BLOCK *pPerfData, IN DWORD dwIndex // 0 = Global, 1 = Costly ) { // GetSystemPerfData LONG lError ; DWORD Size; DWORD Type; printf ("\nGetSystemPerfdata entered in line %d of %s", __LINE__, __FILE__); if (dwIndex >= 2) { return !ERROR_SUCCESS; } if (*pPerfData == NULL) { *pPerfData = MemoryAllocate (INITIAL_SIZE); if (*pPerfData == NULL) { printf ("\nMemory Allocation Failure in line %d of %s", __LINE__, __FILE__); return ERROR_OUTOFMEMORY; } } while (TRUE) { Size = MemorySize (*pPerfData); lError = RegQueryValueEx ( hKeySystem, dwIndex == 0 ? (LPCWSTR)L"Global" : (LPCWSTR)L"Costly", RESERVED, &Type, (LPBYTE)*pPerfData, &Size); if ((!lError) && (Size > 0) && ((*pPerfData)->Signature[0] == (WCHAR)'P') && ((*pPerfData)->Signature[1] == (WCHAR)'E') && ((*pPerfData)->Signature[2] == (WCHAR)'R') && ((*pPerfData)->Signature[3] == (WCHAR)'F')) { return (ERROR_SUCCESS); } if (lError == ERROR_MORE_DATA) { *pPerfData = MemoryResize ( *pPerfData, MemorySize (*pPerfData) + EXTEND_SIZE); if (*pPerfData == NULL) { return (lError); } } else { return (lError); } } } // GetSystemPerfData #pragma warning ( default : 4127 )